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Lets say I have 2 elements {a,b}. Now given a number "n", I want to have all the sets of subsets of "n" elements in a way that adding all of them include all "n" elements. For here we can have the set of subsets of ({a} and {b}) and ({a,b}). In a set of three elements {a,b,c}, I have all the sets of subsets ({a},{b},{c}) and ({a,b},{c}) and ({a},{b,c}) and ({a,c},{b}) and ({a,b,c}). How can I write a program in C++ as a function to take the number "n" and give me all the sets of these subsets.

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closed as off-topic by Borgleader, Etienne de Martel, Praetorian, Mario, Casey Jul 28 '13 at 11:11

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2 Answers 2

I'm not sure I understand your question very well, but I think you are looking at partitions.
Think of the problem recursively.
To partition a set of n elements, run a loop that iterates over all its subsets.
Now, just append the partitions of the complement of the subset (which you find with recursion) to the subset you are currently iterating.

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You can do this, using the formula for finding a combination of n things taken r at a time.

nCr = n! / r! (n-r)!

for example, to find all combinations of a set of 3, taking 2 things at a time (a,b,c) (a,b), ...

C = 3! / 2! (3-2)!
C = 6 / 2(1)
C = 3 distinct combinations are possible for set (a,b,c) in a subset of 2:
(a,b), (a,c), (b,c)

finding all of them
nCr(where n and r = 3) = 1 set (a,b,c)
nCr(n=3, r=1) = 3 = 3 sets (a),(b),(c)
include empty set {}
C = 8

to find all possible sets, you can use a for loop to decrement r to 0. From what I remember about combinatorics/permutations, the null set {} is also counted.

here is how this would look like in a c++ function (this is fairly basic)

unsigned int factorial(unsigned int i)
{
    unsigned int sum = 0;

    if (i > 1)
    {
        sum = i;
        --i;
        for (i; i > 1; --i)
            sum *= i;
    }// 1! and 0! are 1
    else 
        return 1;


    return sum;
}

unsigned int allsubsets(unsigned int n)
{
    unsigned int C = 0;
    for (int r = n; r > 0; --r)
    {
        C += ( factorial(n) / ( factorial(r) * factorial(n-r) ) );
    }
    ++C; // include the null set
    return C;   
}

int main()
{
    std::cout << "C of 1 is: " << allsubsets(1) << std::endl;
    std::cout << "C of 2 is: " << allsubsets(2) << std::endl;
    std::cout << "C of 3 is: " << allsubsets(3) << std::endl;
    std::cout << "C of 4 is: " << allsubsets(4) << std::endl;
    std::cout << "C of 5 is: " << allsubsets(5) << std::endl;

    return 0;
}

prints:

C of 1 is: 2
C of 2 is: 4
C of 3 is: 8
C of 4 is: 16
C of 5 is: 32
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Id also like to add, that a set of n Elements will always have 2 to the n subsets –  David Jul 28 '13 at 4:55
    
I need to extract the subsets, not just the number of producible subsets. Good job on the coding though –  POD Jul 28 '13 at 5:43

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